Global ETD Search

191	Návrh systému vertikálního otevírání dveří elektromobilu / Electric Car Vertical Door Opening System Design Kolečář, Tomáš January 2018 (has links) Cílem této diplomové práce je výběr vhodného mechanismu automatického otevírání dveří pro elektromobil kategorie EU L7e. Pomocí analýzy dostupných řešení na trhu jsou k bližšímu zkoumání zvoleny tři koncepty. Klíčové prvky nejvhodnějšího mechanismu jsou navrženy s ohledem na silové působení včetně volby vhodného typu aktuátoru. V závěru práce je sestava zhodnocena s ohledem na předem zadané uživatelské požadavky.
192	Koncepční návrh převodového ústrojí pro užití v elektromobilu / Design of gearbox for electric vehicles Košík, Matej January 2021 (has links) This diploma thesis deals with designing electric vehicle gearbox. Gearbox should serve as virtual replacement for actual transmission of VW ID.3 EV. Designed gearbox has two gears. In the first section there is an extensive search processed of drivetrain and transmission of battery electric vehicles. Next section contains choice of transmission concept and analyses solving of individual structural nodes – gear wheels, band breaks (components that engage individual gears), carriers, shaft, bearing. In the conclusion of diploma thesis, the two-gear planetary transmission is evaluated.
193	Rychlonabíječka pro trakční akumulátor elektromobilu "Peugeot106 electric" / Fast charger for the traction accumulator of the electric vehicle "Peugeot 106 electric" Langer, Radim January 2009 (has links) This diploma thesis refers to Terminal project 1 and Terminal project 2 from former years of my studies. This work engages in design and construction of high-current charger for the electric vehicle Peugeot 106. Firstly, there is given an account of electric vehicle. There is made reference to its parameters and the way of its battery charging part. Secondly, the work deals with design concept of high-current charger and with its theoretical lay-out. Respectively, this work substantially touches on issues of chosen power, control, regulative and protective circuits of high-current charger. Thirdly, practical assembly procedure of high-current charger is detailed. Dimensioning of particular elements is described in this work. Photos and schemes of given apparatus are shown. Last but not least, results of measurement on assembled high-current charger are stated in this work.
194	Zkoumání vlivu přítlaku na životnost olověných akumulátorů pro hybridní elektrická vozidla. / Investigation pressure effect on lead-acid accumulator lifetime for hybrid electric vehicles. Kulhány, Andrej January 2010 (has links) The thesis is focused on remitting lead-acid segments of partial charge mode which simulates the conditions in HEV. The experimental cells were submitted to different pressures on the electrode system. The main aim of the thesis was to minimize the irreversible sulphating of the negative electrodes, which are in the PSoC regime limiting in the overall life of lead-acid accumulators. All cells were submitted to measurement of the negative electrode potentials, resistance of active materials, contact resistance of the grid – the active material and measurements of pressure changes during three PSoC cycles.
195	Spínané zdroje ve vozidlech elektrické trakce / Switching source in electric tractions vehicle Škunda, Michal January 2010 (has links) The first part of this work describes the design and implementation of switch-mode power supply for control circuits for 12/2x24V 4.5A fuel cells. The introduction picks the issue of power sources in electromobiles and final design and implementation of switching power suply. The next part deals with the issues of fast-charger and generators for power transistors. It describes the structure of DC converter and control and protectin circuits of quick-charger. In the end this work describes selected driver circuits and charge tests on fast-charger as evidenced by measurements.
196	Efekt přítlaku vyvozovaného na elektrodový systém olověného akumulátoru s experimentálními elektrodami / The effect of pressure on the electrode system in lead acid batteries with experimental electrodes Zabloudil, Ondřej January 2014 (has links) This Master’s thesis deals with the issue of lead-acid batteries, which are used in hybrid electric vehicles. The lead-acid batteries works in mode PSoC. In this mode occurs to degradation mechanisms at negative electrodes. These degradation mechanisms reduce the battery life. The practical part of Master’s thesis describes the production and a compilation of experimental cells and experimental part examines the characteristics of lead-acid batteries with the pressure to the electrode system.
197	Design golfového vozíku / Design of golf cart Wenglorz, Marek January 2008 (has links) In this diploma project I´m designing golf cart for transportation two persons . At the side of design I wanted to achieve an innovate feature and diferentiate from today´s production. Through my conception I want to offer a wider possibility of usage and increase use value of golf cart. Herewith I mean for example an integration to the traffic after urgent modification. I dont want to design the golf cart like a vision to the future, but I endeavour for complying with current trends at the producing.
198	Design golfového vozíku / Design of Golf Cart Drápalová, Jana January 2015 (has links) The main contribution of this work is a new perspective on design of a golf cart for 2 players. The aim is to create a cart which will be innovative in the design but retaining necessary technical, ergonomic, aesthetic and ecological requirements. The final draft should be able to compete to existing products in this market.
199	Design of Road Embedded Dynamic Charging Systems for Electrified Transportation Tavakoli, Reza 01 May 2020 (has links) The U.S. transportation sector represented about 28% of all energy consumption in 2018. Petroleum products accounted for 92% of this total energy. Light-duty vehicles are the largest energy consumers in the transportation sector. The high amount of petroleum used by light-duty vehicles creates significant economic and environmental challenges. Electric Vehicles (EVs) have a higher fuel economy and can be emission-free; they are therefore an alternative solution for minimizing the negative environmental impact of internal combustion engine vehicles. However, the adoption of EVs has been limited by their limited driving range, long recharging time, and comparatively higher price. Dynamic wireless charging technology allows for charging the EV battery in motion. Charging pads are embedded in the road and the EV battery is charged while the vehicle is passing over them. This technology not only extends the EV range but also results in a considerable reduction in battery size and capacity. Therefore, dynamic wireless charging solves one of the major issues of EVs, leading to their large-scale adoption. In the first part of this dissertation, a pad optimization methodology is presented to minimize system cost and losses. Using this method, two pads are optimized, built and tested for charging the EV. In the next section, two methods are presented to estimate how much the EV is laterally misaligned with respect to the center of the charging pads. This helps to increase system efficiency and power transfer capability. Finally, new concrete-based material is presented and studied to reduce the charging pad cost and increase their durability. Wireless Power Transfer Dynamic Charging Electric Vehicle Magnetic Pad Design Controller Design Electrical and Computer Engineering
200	NON-INTRUSIVE LOAD EXTRACTION OF ELECTRIC VEHICLE CHARGING LOADS FOR EDGE COMPUTING Hyeonae Jang (8790983) 01 May 2020 (has links) <div>The accelerated urbanization of countries has led the adoption of the smart power grid with an explosion in high power usage. The emergence of Non-intrusive load monitoring (NILM), also referred to as Energy Disaggregation has followed the recent worldwide adoption of smart meters in smart grids. NILM is a convenient process to analyze composite electrical energy load and determine electrical energy consumption.</div><div><br></div><div>A number of state-of-the-art NILM (energy disaggregation) algorithms have been proposed recently to detect various individual appliances from one aggregated signal observation. Different kinds of classification methods such as Hidden Markov Model (HMM), Support Vector Method (SVM), neural networks, fuzzy logic, Naive Bayes, k-Nearest Neighbors (kNN), and many other hybrid approaches have been used to classify the estimated power consumption of electrical appliances from extracted appliances signatures. This study proposes an end-to-end edge computing system with an NILM algorithm, which especially focuses on recognizing Electric Vehicle (EV) charging. This system consists of three main components: (1) Data acquisition and Preprocessing, (2) Extraction of EV charging load via an NILM algorithm (Load identification) on the NILMTK Framework, (3) and Result report to the cloud server platform.</div><div><br></div><div>The monitoring of energy consumption through the proposed system is remarkably beneficial for demand response and energy efficiency. It helps to improve the understanding and prediction of power grid stress as well as enhance grid system reliability and resilience of the power grid. Furthermore, it is highly advantageous for the integration of more renewable energies that are under rapid development. As a result, countless potential NILM use-cases are expected from monitoring and identifying energy consumption in a power grid. It would enable smarter power consumption plans for residents as well as more flexible power grid management for electric utility companies, such as Duke Energy and ComEd.</div> Computer Engineering Applied Computer Science Computer Software NILM Edge Computing Electric Vehicle Smart Grid

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